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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Dear PETSc Users,</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">I want to use multigrid to solve uniform (just Laplace) poisson in 2D/3D on cartesian, non-uniform meshes with a standard 5 (7)-points stencil FD.</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">I always scaled my Poisson matrix like in the doc examples, i.e. multiplying by dx*dy (so that in ComputeRHS I need to scale b, in A*x = b, as well). This always worked properly with both MG/GAMG and with galerkin matrices.</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Now I'd like to use non-uniform meshes, therefore the scaling is non-uniform. However I cannot get my matrices to scale properly with any sort of multigrid.</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">One would think that without scaling, i.e. solving the original system, at least MG+galerkin or GAMG should work anyways provided the matrix A and b are consistent.</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">I tried without boundaries (i.e. torus), so this is not the problem.</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Anyone did/knows how to do this properly?</p>
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<p style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Thanks,</p>
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